Dental Self-Care Habits and Self-Reported Caries Amongst the Elderly in South-Western Kenya

Article Information

Walter Ogutu Amulla1*, Jackie Kpeinzeh Obey2, Dorothy Onjwa Onyango3

1Department of Public Health, University of Eastern Africa, Baraton, Kenya

2Department of Medical Laboratory sciences, University of Eastern Africa, Baraton, Kenya

3Department of Hospitality and Tourism Management, Jaramogi Oginga Odinga University of Science of technology, Bondo, Kenya

*Corresponding Authors: Walter Ogutu Amulla, Graduate Student, Department of Public Health, University of Eastern Africa, Baraton, Kenya

Received: 23 June 2020; Accepted: 03 July 2020; Published: 08 July 2020

Citation: Walter Ogutu Amulla, Jackie Kpeinzeh Obey, Dorothy Onjwa Onyango. Dental Self-Care Habits and Self-Reported Caries Amongst the Elderly in South-Western Kenya. Dental Research and Oral Health 3 (2020): 096-106.

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Abstract

Background: Dental diseases continue to plague elderly populations worldwide with multiple effects on health, nutrition and wellbeing. Nevertheless, little is known concerning geriatric oral hygiene behavior and its association with dental caries in rural Kenya. This knowledge could be instrumental in shaping geriatric oral health interventions.

Aims: To explore relationship between dental self-care habits and self-reported caries amongst the elderly in south-western Kenya.

Methods: A cross-sectional analytical study was done among a random sample of 300 elderly persons in southwestern Kenya. Data pertaining to caries prevalence, sociodemographic characteristics as well as dental self-care habits was gathered through structured questionnaires and analyzed on SPSS v.25. Association between variables was explored using Pearson’s chi-square test and multiple logistic regression.

Results: Prevalence of self-reported caries was 52.3%. The distribution of caries differed significantly across categories of respondents’ location (X2 = 48.90, P<.001), educational levels (X2 =8.95, P= .030), employment status (X2 =5.49, P= .019) and self-rated economic status (X2 =4.52, P= .034). Brushing frequency (OR=5.15), use of toothpaste (OR=4.80), dental visit (OR=5.91), and believing tooth decay is inevitable (OR=2.42) were the leading covariates of self-reported caries.

Conclusion: Caries prevalence was high among geriatric population in southwestern Kenya. Brushing frequency, aids, dentifrice, literacy and attitudes were associated with dental caries. Geriatric dental self-care habits were largely shaped by their caries experience. Targeted interventions to mitigate discrepancies in oral hygiene behavior is recommended.

Keywords

Elderly, Dental Caries, Kenya, Oral Hygiene, Prevalence, Self-report

Elderly articles, Dental Caries articles, Kenya articles, Oral Hygiene articles, Prevalence articles, Self-report articles

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Article Details

1. Introduction

Dental diseases continue to plague elderly populations worldwide with multiple effects on health, nutrition and wellbeing [1]. Africa is particularly affected, with little priority given to geriatric dental health and its social determinants [2, 3]. Dental caries has been reported to constitute the greater burden of dental morbidities among the elderly across the world with prevalence in excess of 40% [4-6]. However, few studies exist for the African continent [7], despite its growing geriatric population [2]. Indeed it is reported that geriatric oro-dental research is still under-prioritized in the African continent [2, 8]. Like other African nations, geriatric population in Kenya has increased exponentially in recent decades to constitute nearly 4% of the total population in latest estimates [9]. Nevertheless, epidemiological studies on dental caries are largely for the younger age-groups [10-12]. An earlier research among the elderly in Kenya found that over 80% had carious teeth [13]. Dental caries can trigger toothache and affect mastication of food with the resulting nutritional implications [5], and, if left untreated, lead to eventual tooth loss further deteriorating health and wellbeing of the elderly [14, 15]. Dental self-care compass actions taken up by individuals to promote or protect oral health and include, among other things, brushing, use of dentifrices and dental visits [16]. These actions are mediated by related knowledge and attitudes [17, 18]. In extant literature, these habits are reported to relate significantly with dental caries. Regular brushing with dentifrices is protective of dental caries [19, 20] and so is regular dental visit [21, 22]. However, little is known about geriatric dental self-care and its association with caries in rural Kenya. This study sought to assess the prevalence of self-reported caries and its association with dental self-care habits among community-dwelling elderly in southwestern Kenya. Such information could be instrumental in shaping geriatric oral health interventions.

2. Materials and Methods

This was a cross-sectional analytical study done amongst 300 elderly ≥65 years in a rural community in southwestern Kenya. The study participants were selected by proportionate stratified sampling technique. The population was stratified by administrative locations and the number of participants determined in a manner proportionate to the size of the stratum. Data was gathered using an interviewer-administered questionnaire translated to the local language. The questionnaire consisted of three sections: Sociodemographic characteristics (8 items), Dental morbidity (1 item) and oral hygiene behavior (9 items). Dental caries was assessed through self-reported presence/absence of cavities by posing the question “does any of your teeth have cavities?” Participants responding “yes” were classified as having caries. The survey instrument was piloted with 10% of the sample size in a neighboring community. SPSS version 25 was used for analysis. Sociodemographic characteristics were summarized using frequencies. Group differences were tested by Pearson’s chi-square. Associations between dental self-care habits and self-reported caries was explored using multiple logistic regression to determine odds and corresponding confidence intervals. Two logistic regression models were constructed. The crude model was constructed using the forced entry method with all explanatory variables entered in block 1.  The adjusted model was constructed hierarchically with possible confounding variables iterated first followed by dental self-care covariates. Significance was set at .05. The study was approved by the University of Eastern Africa, Baraton’s ethics review committee and informed consent was signed by the respondents acknowledging their voluntary participation. Confidentiality of respondents’ data was maintained by only sharing aggregate results.

3. Results

3.1 Sociodemographic characteristics

Majority of the respondents were females (55.3%), aged between 65 to 74 years (64.7%), came from Kanjira location (42.7%), had only primary education (56.7), and never had formal employment (82.3%). More than three quarters hand no health insurance (78.0%) and reported poor-very poor economic status (79.3%), while slightly one in ten (12.7%) were living alone (Table 1).

3.2 Prevalence and distribution of self-reported caries

Over half (52.3%) the participants indicated they had caries. The distribution of caries (Table 2) differed significantly across categories of respondents’ location (X2 (3, N=300) =48.90, P< .001), level of education (X2 (3, N=300) =8.95, P= .030), employment status (X2 (1, N=300) =5.49, P= .019) and self-rated economic status (X2 (1, N=300) =4.52, P= .034).

3.3 Association between dental self-care characteristics and self-reported caries

The results of goodness of fit test indicated the unadjusted (X2 (8, N=300) =81.27, P<0.001) a as well as the final (X2 (8, N=300) =75.14, P<0.001) models were statistically significant. The crude model explained between 23%-31% of the variance in self-reported caries, while the adjusted model explained between 35%-47% of the variance in self-reported caries (Cox & Snell and Nagelkerke R Square, respectively). As shown in (Table 3), six (6) of the independent variables significantly predicted self-reported caries across the crude and adjusted models. Brushing daily (OR=3.83 and 5.15), use of toothpaste (OR=4.46 and 4.80), dental visit (OR=4.78 and 5.91), and believing tooth decay is inevitable (OR=1.95 and 2.42) were associated with higher risks of self-reported caries in both crude and adjusted models respectively. There was lower risk of self-reported caries among respondents who used commercial toothbrushes (OR= 0.18, 95% CI: 0.06-0.57), but the association did not hold true in the final model (OR= 0.29, 95% CI: 0.08-1.067). Likewise, knowledge of the recommended usage period for toothbrushes had significant association with self-reported caries (OR=0.31, 95% CI: 0.16-0.59) but did not hold in the final model (OR = 0.52, 95% CI: 0.25-1.04). On the other hand, knowing teeth should be brushed daily (OR = 0.35, 95% CI: 0.16-0.78) and acquiescing to visit a dentist only when having acute dental problem (OR= 2.32, 95% CI: 1.10-4.86) had significant association with self-reported caries in the adjusted model only.

Characteristic

Frequency (n)

Percent (%)

Age

   65-69

82

27.3

   70-74

112

37.3

   75-79

63

21.0

   80-84

29

9.7

   85+

14

4.7

Gender

   Female

166

55.3

   Male

134

44.7

Location

   Kanjira

128

42.7

   Kateng

43

14.3

   Wagwe

61

20.3

   Kataa

68

22.7

Education

    No Formal education

79

26.3

   Primary

170

56.7

   Secondary

38

12.7

  Tertiary

13

4.3

Formal Employment

   No

247

82.3

   Yes

53

17.7

Living Status

   Alone

38

12.7

   With Spouse

107

35.7

   With extended family

155

51.7

Economic Status

   Very poor

42

14.0

   Poor

196

65.3

   Good

62

20.7

Health Insurance

   No

234

78.0

   Yes

66

22.0

Table 1: Sociodemographic characteristics of respondents.

 

Caries n(%)

X2, df (P-value)

N=300

No (47.7%)

Yes (52.3%)

 

Age

   65-69

32(39.0)

50(61.0)

6.16, 4(0.188)

   70-74

56(50.0)

56(50.0)

 

   75-79

32(50.8)

31(49.2)

 

   80-84

18(62.1)

11(37.9)

 

   85+

5(35.7)

9(64.3)

 

Gender

   Female

79(47.6)

87(52.4)

0.001, 1(0.977)

   Male

64(47.8)

70(52.2)

 

Location

   Kanjira

43(33.6)

85(66.4)

48.90, 3(<0.001)*

   Kateng

35(81.4)

8(18.6)

 

   Wagwe

43(70.5)

18(29.5)

 

   Kataa

22(32.4)

46(67.6)

 

Education

   No formal education

35(44.3)

44(55.7)

8.95, 3(0.030)*

   Primary

76(44.7)

94(55.3)

 

   Secondary

21(55.3)

17(44.7)

 

   Tertiary

11(84.6)

2(15.4)

 

Formally Employed

   No

110(44.5)

137(55.5)

5.49, 1(0.019)*

   Yes

33(62.3)

20(37.7)

 

Living Arrangement

   Alone

22(57.9)

16(42.1)

2.25, 2(0.325)

   Spouse

52(48.6)

55(51.4)

 

  Extended

69(44.5)

86(55.5)

 

Economic Status

   Good-Very good

37(59.7)

25(40.3)

4.52, 1(0.034)*

   Poor-Very poor

106(44.5)

132(55.5)

 

Health Insurance

   No

109(46.6)

125(53.4)

0.50, 1(0.478)

   Yes

34(51.5)

32(48.5)

 

Table 2: Distribution of self-reported cavities across sociodemographic characteristics.

 

Odds Ratios (95%CI) p-value

Model 1: Crude

Model 2: Adjusted*

Brushing daily

   No

Ref

Ref

   Yes

3.83(1.80-8.18)0.001**

5.15(2.16-12.17)<0.001**

Toothbrush use

   No

Ref

Ref

   Yes

0.18(0.06-0.57)0.003**

0.29(0.08-1.067)0.063

Toothpaste use

   No

Ref

Ref

   Yes

4.46(1.45-13.75)0.009**

4.80(1.36-16.97)0.015**

Ever visited dentist

   No

Ref

Ref

   Yes

4.78(2.62-8.72)<0.001**

5.91(2.97-11.75)<0.001**

Teeth should be brushed daily

   No

Ref

Ref

   Yes

0.82(0.42-1.62)0.575

0.35(0.16-0.78)0.010**

Toothbrush should be changed

   No

Ref

Ref

   Yes

0.31(0.16-0.59)<0.001**

0.52(0.25-1.04)0.066

Believe decay is inevitable

   No

Ref

Ref

   Yes

1.95(1.10-3.48)0.023**

2.42(1.25-4.69)0.009**

Agrees to Problem-Only dental visit

    No

Ref

Ref

   Yes

1.68(0.85-3.30)0.134

2.32(1.10-4.86)0.026**

*Adjusted for location, education, employment, & economic status. ** Significant at P<.05 

Table 3: Multiple logistic regression models for association between oral hygiene behavior and Self-reported Caries.

4. Discussion

This paper assessed the relationship between dental self-care and self-reported caries among geriatric population in southwestern Kenya. The use of self-report in epidemiological assessment of cavities and related oro-dental morbidities has been validated in a number of studies [23-28]. This method is preferred among epidemiologists due to its relative time and resource leverage [23, 25].The prevalence of self-reported caries (53.2%) exceeded reports in Colombia [24] and parts of Vietnam [29] indicating greater burden of cavities in the studied population. Indeed considering the possibility of underestimating the true burden of dental caries in self-reports [30], the elderly in the studied area could have had even higher prevalence. Nevertheless, an assessment of dental caries using clinical methods reported prevalence of 49% in parts of Africa [7], which was still lower than reported in this study. In this study, the frequency of brushing with commercial dentifrices   (OR=4.80, 95% CI: 1.36-16.97, P=0.015) was associated with higher odds self-reported dental caries before and after adjustment of confounding effect. In extant literature, these habits are reported to prevent dental morbidity [19, 20]. This anomaly could be explained by reverse causality. We argue that in these instances, it was the outcome that caused the exposure.

In a manner of speaking, the elderly in this study were not shy of dental caries until once bitten, reflecting a general poor attitude towards dental self-care. A similar association was observed with dental visit which portended higher odds of self-reported caries across both the crude (OR=4.78, 95% CI: 2.62-8.72, P<.001) and adjusted models (OR=5.91, 95% CI: 2.97-11.75, P<.001). Almoznino  and colleagues [21] found dental visit to avert dental caries. However, whereas dental visit in the cited study was prevention-focused, it is likely that respondents in the current study only visited dentists for treatment. As such, it was the dental health problem that caused dental visit resulting in the observed reverse association.  A related case-control study reported a similar association between dental visit and caries experience and the authors suggested reverse causality as the plausible explanation [31]. Interestingly, commercial toothbrush was not an independent predictor of caries outcome in the studied population. Its influence was only significant prior to accounting for confounding, conferring about 18% protection. A possible explanation for this could be that this being a low-income rural elderly population, many used other tools to brush their teeth such as chewed sticks as opposed to commercial toothbrush, which have also been found to work well in efficacy assessments [32-35]. The import of this finding is that it adds to the bolstering evidence justifying traditional brushing tools that are easily accessible to low income populations. Likewise, there were lower odds of self-reported caries associated with knowledge regarding how long toothbrushes should be used (OR= 0.31, 95% CI: 0.16-0.59) but only in the crude model. The influence of this variable was possibly augmented by respondents’ socioeconomic status, particularly level of education thus it was not an independent covariate of caries in this study. Respondents with knowledge on brushing frequency were 35% less-likely to report caries in the studied population. Oral health know-how has been documented to improve self-care and avert cavities among the elderly [36] and may have been the reason for this observation. Moreover, believing caries could not be prevented increased the risk of self-reported caries by nearly 3 times (OR =2.42, 95% CI: 1.25-4.69). Poor perceptions could curtail dental self-care resulting in elevated risk of disease [17, 18] and may have been the reason for the observed association. Further, it was observed that acquiescing to dental attendance for treatment only raised the risk of caries by more than twice (OR=2.32, 95% CI: 1.10-4.86). This attitudinal proclivity may have deterred preventive dental attendance reported to avert disease among the elderly [37-39], resulting in elevated incidence of caries.

5. Conclusion

This paper assessed the relationship between dental self-care and self-reported caries among geriatric population in southwestern Kenya. The prevalence of self-reported caries was high among respondents. Brushing frequency, aids, dentifrice, literacy and attitudes were associated with caries prevalence. However, dental self-care habits in this study was largely shaped by caries experience. Respondents’ oral hygiene behavior could be described as reactive, in contradistinction to proactive. Targeted interventions to promote proactive oral hygiene behavior among geriatric populations is recommended.

Limitations and Strengths

The inability of this study to establish a true cause-effect relationship between exposure and outcome variables due to its cross-sectional design should be taken into account in interpreting and applying results. We also notice that the results reflect the unique circumstances of rural Kenya and may not be widely generalized. Nonetheless, this study occupies a unique place in literature, being among the rarities of geriatric oral health research in Africa and possibly the first to report reverse causality in association between certain self-care habits and caries.

Conflict of Interest

None

References

  1. Gil-Montoya JA, Ferreira de Mello AL, Barrios R, et al. Oral health in the elderly patient and its impact on general well-being: a nonsystematic review. Clin Interv Aging 10 (2015): 461-467.
  2. Ogunbodede EO. Population ageing and the implications for oral health in Africa. Gerodontology 30 (2013): 1-2.
  3. Regional oral health strategy 2016–2025: addressing oral diseases as part of noncommunicable diseases: report of the secretariat [Internet]. World Health Organization, Regional Committee for Africa (2016).
  4. Agarwalla R, Saikia AM, Baruah R. Assessment of the nutritional status of the elderly and its correlates. J Fam Community Med 22 (2015): 39-43.
  5. Liu L, Zhang Y, Wu W, et al. Prevalence and Correlates of Dental Caries in an Elderly Population in Northeast China. PLoS ONE 8 (2013).
  6. Vos T, Abajobir AA, Abate KH, et al. Global, regional, and national incidence, prevalence, and years lived with disability for 328 diseases and injuries for 195 countries, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. The Lancet 390 (2017): 1211-1259.
  7. Msyamboza KP, Phale E, Namalika JM, et al. Magnitude of dental caries, missing and filled teeth in Malawi: National Oral Health Survey. BMC Oral Health 16 (2016): 29.
  8. Abid A, Maatouk F, Berrezouga L, et al. Prevalence and Severity of Oral Diseases in the Africa and Middle East Region. Adv Dent Res 27 (2015): 10-17.
  9. Tonny Ndungu. Out of 47.6 million Kenyans, 35.7 million are under the age of 35. Citizentv.co.ke (2020).
  10. Makhanu M, Opinya G, Mutave RJ. Dental fluorosis, caries experience and snack intake of 13-15 year olds in Kenya. East Afr Med J 86 (2009): 120-124.
  11. Masiga MA, M’Imunya JM. Prevalence of dental caries and its impact on quality of life (QoL) among HIV-infected children in Kenya. J Clin Pediatr Dent 38 (2013): 83-87.
  12. Owino RO, Masiga MA, Ng’ang’a PM, et al. Dental caries, gingivitis and the treatment needs among 12-year-olds. East Afr Med J 87 (2010): 25-31.
  13. Ngatia EM, Gathece LW, Macigo FG, et al. Nutritional and oral health status of an elderly population in Nairobi. East Afr Med J 85 (2008): 378-385.
  14. Friedman PK, Lamster IB. Tooth loss as a predictor of shortened longevity: exploring the hypothesis. Periodontol 2000 72 (2016): 142-152.
  15. Tsakos G, Watt RG, Rouxel PL, et al. Tooth Loss Associated with Physical and Cognitive Decline in Older Adults. J Am Geriatr Soc 63 (2015): 91-99.
  16. Lalani A, Dasar PL, Sandesh N, et al. Assessment of relationship between oral health behavior, oral hygiene and gingival status of dental students. Indian J Dent Res 26 (2015): 592.
  17. Broadbent JM, Zeng J, Foster Page LA, et al. Oral Health–related Beliefs, Behaviors, and Outcomes through the Life Course. J Dent Res 95 (2016): 808-813.
  18. Mariño R, Hopcraft M, Ghanim A, et al. Oral health-related knowledge, attitudes and self-efficacy of Australian rural older adults. Gerodontology 33 (2016): 530-538.
  19. Arrica M, Carta G, Cocco F, et al. Does a social/behavioural gradient in dental health exist among adults? A cross-sectional study. J Int Med Res 45 (2017): 4510461.
  20. Zhang J, Sardana D, Wong MCM, et al. Factors Associated with Dental Root Caries: A Systematic Review. JDR Clin Transl Res (2019).
  21. Almoznino G, Aframian DJ, Sharav Y, et al. Lifestyle and dental attendance as predictors of oral health-related quality of life. Oral Dis 21 (2015): 659-666.
  22. Zaitsu T, Kanazawa T, Shizuma Y, et al. Relationships between occupational and behavioral parameters and oral health status. Ind Health 55 (2017): 381-390.
  23. Abbood HM, Hinz J, Cherukara G, et al. Validity of Self-Reported Periodontal Disease: A Systematic Review and Meta-Analysis. J Periodontol 87 (2016): 1474-1483.
  24. Ardila CM, Agudelo-Suárez AA. Association between dental pain and caries: a multilevel analysis to evaluate the influence of contextual and individual factors in 34 843 adults. J Investig Clin Dent 7 (2016): 410-416.
  25. Matsui D, Yamamoto T, Nishigaki M, et al. Validity of self-reported number of teeth and oral health variables. BMC Oral Health 17 (2016): 17.
  26. Nogueira CMR, Falcão LMN, Nuto S de AS, et al. Self-perceived oral health among the elderly: a household-based study. Rev Bras Geriatr E Gerontol 20 (2017): 7-19.
  27. Ribeiro CG, Cascaes AM, Silva AER, et al. Edentulism, Severe Tooth Loss and Lack of Functional Dentition in Elders: A Study in Southern Brazil. Braz Dent J 27 (2016): 345-352.
  28. Trevillyan JM, Chang JJ, Currier JS. Prevalence of dental symptoms and access to dental care in an American HIV outpatient clinic. Oral Dis 24 (2018): 866-867.
  29. Kieu TQ, Ngo LTQ, Pham TAAV. Dental Caries and Related Factors in Vietnamese Dental Patients. UI Proc Health Med 1 (2017): 147-154.
  30. Silva AER, Menezes AMB, Assunção MCF, et al. Validation of Self-Reported Information on Dental Caries in a Birth Cohort at 18 Years of Age. PLoS ONE (2014).
  31. Costa SM, Vasconcelos M, Abreu MHNG. High Dental Caries among Adults Aged 35 to 44 Years: Case-Control Study of Distal and Proximal Factors. Int J Environ Res Public Health 10 (2013): 2401.
  32. Darout IA, Homeida HE. Survival Rate of Oral Bacteria on Toothbrush and Miswak Stick. Am J Health Res 4 (2016): 134.
  33. Mustafa M, AlJeaidi Z, AlAajam WH, et al. Study of Caries Prevalence among Miswak and Non-Miswak Users: A Prospective Study. J Contemp Dent Pract 17 (2016): 926-929.
  34. Niazi F, Naseem M, Khurshid Z, et al. Role of Salvadora persica chewing stick (miswak): A natural toothbrush for holistic oral health. Eur J Dent10 (2016): 301-318.
  35. Pachava S, Chandu VC, Yaddanapalli SC, et al. Comparing Caries Experience between Azadirachta indica Chewing Stick Users and Toothbrush Users among 35-44-Year-Old Rural Population of Southern India. J Int Soc Prev Community Dent 9 (2019): 417.
  36. Batista MJ, Lawrence HP, Sousa M da LR de. Oral health literacy and oral health outcomes in an adult population in Brazil. BMC Public Health 18 (2017): 60.
  37. Eguchi T, Tada M, Shiratori T, et al. Factors Associated with Undergoing Regular Dental Check-ups in Healthy Elderly Individuals. Bull Tokyo Dent Coll (2018).
  38. Park C-S, Kim I-J. Oral health behavior according to perceived oral symptoms in the elderly. J Korean Soc Dent Hyg 16 (2016): 955-968.
  39. Saito M, Shimazaki Y, Nonoyama T, et al. Type of dental visit and number of remaining teeth in Japanese elders. J Oral Sci 60 (2018): 611-617.

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